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EP1855605B1 - Nail plate system - Google Patents

Nail plate system Download PDF

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Publication number
EP1855605B1
EP1855605B1 EP06719774.9A EP06719774A EP1855605B1 EP 1855605 B1 EP1855605 B1 EP 1855605B1 EP 06719774 A EP06719774 A EP 06719774A EP 1855605 B1 EP1855605 B1 EP 1855605B1
Authority
EP
European Patent Office
Prior art keywords
head portion
implant
nail
screw
bone
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Not-in-force
Application number
EP06719774.9A
Other languages
German (de)
French (fr)
Other versions
EP1855605A1 (en
EP1855605A4 (en
Inventor
Jorge L. Orbay
Javier E. Castaneda
Cesare Cavallazzi
Robert Graham
Marcus Bourda
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Biomet CV USA
Original Assignee
Biomet CV Gibraltar
Biomet CV USA
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Biomet CV Gibraltar, Biomet CV USA filed Critical Biomet CV Gibraltar
Publication of EP1855605A1 publication Critical patent/EP1855605A1/en
Publication of EP1855605A4 publication Critical patent/EP1855605A4/en
Application granted granted Critical
Publication of EP1855605B1 publication Critical patent/EP1855605B1/en
Not-in-force legal-status Critical Current
Anticipated expiration legal-status Critical

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Classifications

    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/16Bone cutting, breaking or removal means other than saws, e.g. Osteoclasts; Drills or chisels for bones; Trepans
    • A61B17/17Guides or aligning means for drills, mills, pins or wires
    • A61B17/1728Guides or aligning means for drills, mills, pins or wires for holes for bone plates or plate screws
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/16Bone cutting, breaking or removal means other than saws, e.g. Osteoclasts; Drills or chisels for bones; Trepans
    • A61B17/17Guides or aligning means for drills, mills, pins or wires
    • A61B17/1717Guides or aligning means for drills, mills, pins or wires for applying intramedullary nails or pins
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/16Bone cutting, breaking or removal means other than saws, e.g. Osteoclasts; Drills or chisels for bones; Trepans
    • A61B17/17Guides or aligning means for drills, mills, pins or wires
    • A61B17/1725Guides or aligning means for drills, mills, pins or wires for applying transverse screws or pins through intramedullary nails or pins
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/16Bone cutting, breaking or removal means other than saws, e.g. Osteoclasts; Drills or chisels for bones; Trepans
    • A61B17/17Guides or aligning means for drills, mills, pins or wires
    • A61B17/1739Guides or aligning means for drills, mills, pins or wires specially adapted for particular parts of the body
    • A61B17/1778Guides or aligning means for drills, mills, pins or wires specially adapted for particular parts of the body for the shoulder
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/56Surgical instruments or methods for treatment of bones or joints; Devices specially adapted therefor
    • A61B17/58Surgical instruments or methods for treatment of bones or joints; Devices specially adapted therefor for osteosynthesis, e.g. bone plates, screws, setting implements or the like
    • A61B17/68Internal fixation devices, including fasteners and spinal fixators, even if a part thereof projects from the skin
    • A61B17/72Intramedullary pins, nails or other devices
    • A61B17/7233Intramedullary pins, nails or other devices with special means of locking the nail to the bone
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/56Surgical instruments or methods for treatment of bones or joints; Devices specially adapted therefor
    • A61B17/58Surgical instruments or methods for treatment of bones or joints; Devices specially adapted therefor for osteosynthesis, e.g. bone plates, screws, setting implements or the like
    • A61B17/88Osteosynthesis instruments; Methods or means for implanting or extracting internal or external fixation devices
    • A61B17/8875Screwdrivers, spanners or wrenches
    • A61B17/8886Screwdrivers, spanners or wrenches holding the screw head
    • A61B17/8888Screwdrivers, spanners or wrenches holding the screw head at its central region
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods, e.g. tourniquets
    • A61B17/56Surgical instruments or methods for treatment of bones or joints; Devices specially adapted therefor
    • A61B17/58Surgical instruments or methods for treatment of bones or joints; Devices specially adapted therefor for osteosynthesis, e.g. bone plates, screws, setting implements or the like
    • A61B17/88Osteosynthesis instruments; Methods or means for implanting or extracting internal or external fixation devices
    • A61B17/92Impactors or extractors, e.g. for removing intramedullary devices
    • A61B17/921Impactors or extractors, e.g. for removing intramedullary devices for intramedullary devices

Definitions

  • This invention relates broadly to surgical devices. More particularly, this invention relates to an orthopaedic fracture fixation system, and instrumentation for implanting the same.
  • the proximal humerus comprises the upper portion of the humerus, i.e. upper arm of the human body, commonly known as the shoulder area. Fractures of the proximal humerus typically result from traumatic injuries such as sporting accidents and can be more frequent with age due to reduction in bone density. Fractures of the proximal humerus are treated by exposing the fracture site, reducing the bone fracture, and then placing a plate over a relatively large area of the bone to immobilize the fracture in the reduced position for healing. Reducing the fracture includes realigning and positioning the fractured portions of the bone to their original position or similar stable position. Fixating the fracture includes positioning a plate over the fractured portions and securing the plate onto the fractured bones and adjacent non-fractured bones with bone screws.
  • fixation plates have several shortcomings when applied to the proximal humerus. In general, they are generally not well contoured for the humeral anatomy, and when provided in a size necessary to provide the structural rigidity for stability of a humeral fracture are not easily shaped by the surgeon. Furthermore, they require that a significant amount of tissue be exposed and displaced in order to position and secure the plate.
  • WO-03/101320 discloses a fixation device for use in treating a fracture which includes nail and plate portions which are fixed in a parallel arrangement.
  • the invention provides an implant for fixation of a bone fracture having a diaphysis with a medullary canal, an endosteum within the medullary canal, and a metaphysis with an articular surface at its end, as defined in claim 1.
  • the implant can be used for humeral fracture fixation system and is anatomically appropriate for the humerus.
  • the implant can provide a humeral fracture fixation system which provides a stable framework for support of a proximal humeral fracture.
  • the implant can be used in a humeral fracture fixation system which does not require displacing a large amount of tissue.
  • the implant can be used in a humeral fracture fixation system which is relatively minimally invasive.
  • the implant can be used in a humeral fracture fixation system which facilitates alignment of the fixation device with the humeral shaft and fasteners with the head of the humerus.
  • the implant can be used in a humeral fracture fixation system which is non-irritating to surrounding tissue.
  • the implant can be used with instrumentation for implanting a humeral fracture fixation system.
  • the implant is a nail-plate fixation device having a plate-like head portion, an intramedullary nail portion, and a bent neck portion therebetween which creates an angle between the plate and nail portions.
  • the upper surface of the nail portion is substantially straight, while a lower portion tapers in dimension.
  • the nail portion includes cortical screw holes which preferably are provided with machine threads for receiving the threaded shaft of a screw with machine threads.
  • the head portion includes locking holes for receiving fixed-angle locking pegs or locking screws, and K-wire alignment holes.
  • the front of the head portion includes suture holes.
  • suture holes are tunnel-like, accessible by a curved suture needle.
  • three tunnels are provided: a first central tunnel perpendicular to a proximal-distal axis of the head portion and extending through the central plate of the head portion, and second and third tunnels on either side of the first which are at angle of about 45° ⁇ 15° degrees with respect to the first tunnel.
  • the upper and front contours of the head portion can be devoid of scallops and protrusions and practically unaffected by the existence of the suture holes. The advantage of a smooth front end is that it presents no side-to-side resistance to tissue moving across the head portion.
  • An implantation jig can be coupled to device, and specifically the head portion.
  • the jig attaches to the head portion via a catch at the front end of the head portion nail plate and a locking screw.
  • This catch is defined by two grooves in between the three suture holes at the front end of the plate. The grooves also allow a suture needle to enter the tunnels.
  • the handle of the jig can be in first position directed away from the nail portion or in a second position in which it overlies a portion of the nail portion. In the first position, the handle is used to insert the plate into the bone, and in the second position the handle is used to drill holes for the cortical screws.
  • a system for implanting the cortical screws, and includes a screw guide cannula, a drill guide cannula, and an obturator. These three units assembled together form a tapered end that permits them to be inserted through a small skin incision and to dissect the tissue down to the bone. Then the obturator is pulled out and the drill is introduced and used to drill through the cortex. The drill guide is then pulled out and the screw introduced, attached by friction to the driver.
  • the screw guide has a constant inside diameter just big enough for the head of the screw all the way to just shy of the distal end. At the distal end of the screw guide, the diameter is just a bit smaller than the head of the screw.
  • the force required to overcome the interference between the size of the head of the screw and the smaller diameter at the end of the screw guide is sufficiently small so that the screw head can be driven right through the drill guide.
  • the purpose of this feature is to retain the screw and allow the surgeon to pull out the screw in case the screw is separated from the driver while the screw is inside the cannula.
  • Nail plates specifically for the fixation of metaphyseal fractures of the distal radius are disclosed in US-6730090 and US-6706046 .
  • the following nail plate is designed for the proximal humerus and includes several novel and significant modifications relative to prior nail plates, as well as a new implantation jig, which are now described.
  • a fracture fixation system includes a nail plate 10 having a plate-like head portion 12, an intramedullary nail portion 14, and a bent neck portion 16 therebetween which defines an angle ⁇ between the head portion 12 and upper surface 17 of the nail portion 14.
  • the angle ⁇ is from 10° to 25 to accommodate the angle between the diaphysis 162 of the humerus 160 and outside of the metaphysis 164 of the proximal humerus. (See also Figs. 12 and 24 .)
  • the upper (anatomically lateral) surface 17 of the nail portion 14 defines a substantially straight line for contact with the endosteum of the medullary canal, while a lower (anatomically medial) surface 18 curves or angles to approach the upper surface to cause the nail portion to taper in dimension toward a tail end 19.
  • the tail end 19 has a substantially uniform smaller diameter to facilitate entry into the medullary canal.
  • the nail portion 14 includes three cortical screw holes 20, 22, 24 which preferably are provided with machine threads for receiving the threaded shaft of a preferably unicortical screws with machine threads. Referring to Figs. 2 and 25 , the cortical screw holes 20, 22, 24 are spaced apart from the neck 16 a suitable distance D to prevent screws 190 ( Figs.
  • a preferred distance D is approximately 3 - 4 cm, and more preferably approximately 3.4 cm, from a tangent T to the inside curve of the neck 16 which will seat against the distal side of the fracture.
  • the head portion 12 includes locking holes 26, 28, 30, 32, 34 for receiving fixed-angle locking pegs 46, 48, 50, 52, 54 or locking screws ( Figs. 13-16 ), i.e., 'bone support elements'.
  • the locking holes are preferably made 'locking' via the inclusion of internal threads.
  • five locking holes are provided, with the central locking hole 26 defining an axis directed toward the centre of the articular surface of the humeral head, and the relatively proximal and distal (and anterior and posterior) locking holes 28, 30, 32, 34 having axes spatially distributed and diverging from the axis of the central locking hole 26 and each other but forming a multiaxial arrangement within the humeral head.
  • the head portion 12 also includes a plurality of K- wire alignment holes 60, 62, 64 which closely receive K- wires and direct such wires to anticipate the placement of the bone support elements.
  • Alignment holes 62, 64 are located on anterior and posterior sides of central hole 26 and have axes which extend parallel to the axis of central hole 26. The use of alignment holes 60, 62, 64 and K- wires in this manner is described in more detail in US-A-2004/0193165 , US-A-2004/0193164 , US-A-2005/0065524 and US-A-2003/0080371 .
  • the plate also includes a threaded jig hole 66.
  • the front of the head portion 12 includes tunnel-like suture holes accessible by a curved suture needle.
  • three tunnels are provided: a first central tunnel 70 perpendicular to a proximal-distal axis Ai of the head portion and extending through the central plane P of the head portion 12, and second and third tunnels 72, 74 on either side of the first 70 which are at an angle of about 45° ⁇ 15° degrees with respect to the first tunnel.
  • Each tunnel preferably includes a side which is longer than the thickness of the head portion.
  • a catch is defined by two grooves 76 in between the three suture holes 70, 72, 74 or by other suitable structure at the front end of the head portion 12. The grooves 76 also allow a suture needle to enter the tunnels.
  • the upper and front contours of the head portion 12 are devoid of scallops and protrusions such that there is no apparent disruption to the contour of the plate by the suture holes.
  • the advantage of a smooth front end is that it presents no side-to-side resistance to tissue moving across the head portion.
  • an implantation jig 100 is also provided.
  • the jig 100 can be coupled to the device 10, and specifically the head portion 12.
  • the jig includes a base 102 with two implant anchors 104, an access opening 106 through which the threaded or non-threaded shaft locking pegs 150 ( Figs. 13-16 ) may be inserted into the head portion of the device, alignment holes 108, 110, 112 in alignment with K-wire alignment holes 60, 62, 64, and a coupling hole 114.
  • the base 102 is secured to the head portion 12 of the plate by engaging the anchors 104 in the grooves 76 of the catch and securing a screw 116 through the coupling hole 114 and into the jig hole 66.
  • a pedestal 118 extends upward from the front of the base 102.
  • a handle mount 120 having at least a portion with a non-circular cross-section is provided at an upper portion of the pedestal 118 and oriented so as to be perpendicular to the upper surface 18 of the nail portion 14 ( Fig. 9 ).
  • a handle 122 is coupled to the non-circular mount 120 via a releasable clamp 123 which permits the handle to be secured in a first position generally opposite the nail portion 14 ( Figs.
  • the handle 122 includes guide holes 124, 126, 128 which when the handle is in the second position overlie the cortical screw holes 20, 22, 24 in the nail portion in the humeral bone 160.
  • the first position is particularly useful during manipulation of the nail portion of the device through the intrafocal space and into the medullary canal, and during insertion of the K-wires through the alignment holes 60, 62, 64 and implantation of the locking screws 150.
  • the second position is used during installation of the cortical screws into the nail portion, as discussed in more detail below.
  • a screw guide cannula 170, a drill guide cannula 180, and an obturator 190 are provided for use with the jig 100 (See Figs. 21-23 ). These three units assembled together form a tapered end that permits them to be inserted through a small skin incision and to dissect the tissue down to the bone. The assembly is inserted through one of the holes 124, 126, 128 and maneuvered down to the bone. The obturator 190 is then withdrawn and a drill is introduced through the drill guide 180 and used to drill through the bone cortex over one of the holes 20, 22, 24. The drill and drill guide are then pulled out and a machine screw is introduced through the cannula 170, attached by friction to a driver.
  • the screw guide cannula 170 has a proximal opening (first end), a distant end (second end) and a longitudinally extending central portion therebetween.
  • the central portion has a constant inside diameter just big enough for the head of the screw and extends all the way to just shy of the distal end.
  • the diameter is just a bit smaller than the head of the screw. This is achieved by, for example, (i) leaving a small lip (e.g., by machining) in this area so as to create a slight interference relative to the screw head or (ii) by bending in the end, e.g., with or without the help of slits.
  • the force required to overcome the interference between the screw head and the smaller diameter at the end of the screw guide 170 is sufficiently small so that the screw head can be driven right through the screw guide and into holes in the nail portion of the device within the bone.
  • the purpose of this feature is to retain the screw and allow the surgeon to retrieve the screw in the event the screw is separated from the driver while the screw is inside the guide 170.
  • FIG. 26-28 an alternative screw capture system to facilitate screw insertion is provided.
  • a standard constant diameter guide 370 shown in section
  • the screw 390 include a head 392 including a central hex slot 394 for a driver 406 and a reverse-hand threaded recess 396 (opposite the travel of the machine threads on the shaft of the screw) at the base of the hex slot 394.
  • a coupling rod 400 is provided with an end 402 having a reverse-hand thread 404. As shown in Fig. 27 , the rod 400 is physically connected to the screw 390 by a reverse-hand threaded coupling.
  • the rod 400 is then used to maneuver the screw 390 through the guide 370, the hole drilled in the bone, and into a screw hole 20, 22, 24 in the nail portion 14 ( Fig. 3 ).
  • the rod 400 is then rotated to insert the screw 390 into the screw hole, and the rod substantially simultaneously unthreads from the screw head 392 to decouple from the screw.
  • a driver 406 is then inserted into the hex slot 394 and driven to complete insertion of the screw 390 into the screw hole.
  • the threaded coupling between the screw 390 and rod 400 may be designed to have greater interference inhibiting release between the two.
  • the rod 400 can then be used to substantially completely insert the screw 390 prior to release of the rod, with the driver 406 being used for final screw tightening.
  • any conventional screw driving system can be used.
  • a second embodiment of a nail plate 210 is shown.
  • the nail plate 210 is substantially similar to nail plate 10, but includes the following distinctions.
  • the head portion 212 is set back relatively further on the neck 216 such that the central locking hole 226 extends through the neck and further clearance is provided between the front end of the head portion 212 and the acromium.
  • the tail end 219 of the nail portion 214 is provided with a downward and then upward curve which facilitates maneuvering the tail end of the nail portion for intrafocal entry.
  • the nail plate 210 is shown coupled to the implantation jig 100.
  • the implantation jig 100 can be used without modification with both nail plates 10 and 210.
  • a screw guide cannula 170 and drill guide 180 are shown in a hole 126 in the handle 122 situated over screw hole 222 of the nail portion 214 of the device 210.
  • a single size implant can be used and the implant can be assured of proper anatomical alignment by extending (i) the nail portion 214 parallel with the axis A 2 of the diaphysis 162 and (ii) the central locking peg (or locking screw) 150a toward the center 168a, 168b of the articular surface of the humeral head.
  • the angle between the axis A and a line perpendicular the center of the articular surface is typically 45° ⁇ 20°, and more typically 45° ⁇ 10°.
  • K-wires (not shown) inserted through alignment holes 262, 264 ( Fig. 18 ) can verify proper alignment of the central hole 226 prior to drilling holes for and inserting the locking peg therethrough. If the central hole is properly aligned, the remaining holes and pegs are assured to be properly spatially distributed.
  • a method of using the nail plate 10 (or 210), jig 100 and cannula 170 is now briefly described.
  • a small incision is made over the fracture down to the bone.
  • a small piece of bone is then removed (using, e.g., a rongeur) on the distal (diaphyseal) side of the fracture to define a space to accommodate the neck 16 of the nail plate 10.
  • the fracture is reduced.
  • the jig 100 is coupled to the nail plate with the handle 122 secured in the first position generally opposite the nail portion 14.
  • the small end 19 of the nail portion 14 is then maneuvered through the incision and intrafocally into the medullary canal until the neck 16 seats within the space defined in the bone and the head portion 12 rests relatively flat on the metaphysis, as shown in Figs. 7 and 8 .
  • the nail plate is introduced into the medullary canal and onto the metaphysis manually without attachment to the jig and the jig is later attached.
  • K-wires are preferably then drilled into the head of the proximal humerus and viewed under fluoroscopy to assure alignment of the head portion over the metaphysis. Assuming the K-wires indicate proper alignment, holes are drilled through the locking holes and into the metaphysis for receiving locking pegs or locking screws. If the K-wire(s) indicate an alignment which is less than desirable, the plate humeral head are relatively realigned, and K-wire(s) are reinserted and reevaluated for alignment and once the alignment is satisfactory, the holes are drilled. The locking pegs 150 or locking screws are inserted into the drilled holes and locked relative to the plate 10 to stabilize the humeral head relative to the head portion 12 of the nail plate.
  • the handle 122 of the jig 100 is then reversed (or attached) to overlie the nail portion 14 ( Fig. 10 ) and be positioned over the tissue and skin of the upper arm.
  • the screw guide cannula 170, drill guide cannula 180 and obturator 190 are together inserted therethrough, with the obturator 190 breaking the skin and defining a path through the tissue to the diaphyseal bone.
  • the obturator 190 is then withdrawn and a drill is introduced through the drill guide 180 and used to drill through the bone cortex over one the respective holes 20, 22, 24.
  • the drill and drill guide are then pulled out and a machine screw attached to a driver is introduced through the cannula 170 and the shaft of the screw is driven into respective hole 20, 22, 24 to cause the nail portion 14 to be drawn against the endosteal surface of the bone.
  • the process is repeated for the remaining holes 20, 22, 24 in the nail portion.
  • the jig 100 is then removed from the nail plate 10 and the incision is closed.
  • the components provided by the invention can be used in a method of implanting a nail-plate implant into a fractured bone having a metaphysis including an articular surface, the implant having a nail portion with screw holes, a plate portion with locking holes, and a neck portion therebetween, comprising:

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Description

    BACKGROUND OF THE INVENTION FIELD OF THE INVENTION
  • This invention relates broadly to surgical devices. More particularly, this invention relates to an orthopaedic fracture fixation system, and instrumentation for implanting the same.
  • STATE OF THE ART
  • The proximal humerus comprises the upper portion of the humerus, i.e. upper arm of the human body, commonly known as the shoulder area. Fractures of the proximal humerus typically result from traumatic injuries such as sporting accidents and can be more frequent with age due to reduction in bone density. Fractures of the proximal humerus are treated by exposing the fracture site, reducing the bone fracture, and then placing a plate over a relatively large area of the bone to immobilize the fracture in the reduced position for healing. Reducing the fracture includes realigning and positioning the fractured portions of the bone to their original position or similar stable position. Fixating the fracture includes positioning a plate over the fractured portions and securing the plate onto the fractured bones and adjacent non-fractured bones with bone screws.
  • Conventional fixation plates have several shortcomings when applied to the proximal humerus. In general, they are generally not well contoured for the humeral anatomy, and when provided in a size necessary to provide the structural rigidity for stability of a humeral fracture are not easily shaped by the surgeon. Furthermore, they require that a significant amount of tissue be exposed and displaced in order to position and secure the plate.
  • WO-03/101320 discloses a fixation device for use in treating a fracture which includes nail and plate portions which are fixed in a parallel arrangement.
  • SUMMARY OF THE INVENTION
  • The invention provides an implant for fixation of a bone fracture having a diaphysis with a medullary canal, an endosteum within the medullary canal, and a metaphysis with an articular surface at its end, as defined in claim 1.
  • The implant can be used for humeral fracture fixation system and is anatomically appropriate for the humerus.
  • The implant can provide a humeral fracture fixation system which provides a stable framework for support of a proximal humeral fracture.
  • The implant can be used in a humeral fracture fixation system which does not require displacing a large amount of tissue.
  • The implant can be used in a humeral fracture fixation system which is relatively minimally invasive.
  • The implant can be used in a humeral fracture fixation system which facilitates alignment of the fixation device with the humeral shaft and fasteners with the head of the humerus.
  • The implant can be used in a humeral fracture fixation system which is non-irritating to surrounding tissue.
  • The implant can be used with instrumentation for implanting a humeral fracture fixation system.
  • The implant is a nail-plate fixation device having a plate-like head portion, an intramedullary nail portion, and a bent neck portion therebetween which creates an angle between the plate and nail portions.
  • The upper surface of the nail portion is substantially straight, while a lower portion tapers in dimension. The nail portion includes cortical screw holes which preferably are provided with machine threads for receiving the threaded shaft of a screw with machine threads.
  • The head portion includes locking holes for receiving fixed-angle locking pegs or locking screws, and K-wire alignment holes. The front of the head portion includes suture holes. Preferably such suture holes are tunnel-like, accessible by a curved suture needle. In a preferred embodiment, three tunnels are provided: a first central tunnel perpendicular to a proximal-distal axis of the head portion and extending through the central plate of the head portion, and second and third tunnels on either side of the first which are at angle of about 45° ±15° degrees with respect to the first tunnel. The upper and front contours of the head portion can be devoid of scallops and protrusions and practically unaffected by the existence of the suture holes. The advantage of a smooth front end is that it presents no side-to-side resistance to tissue moving across the head portion.
  • An implantation jig can be coupled to device, and specifically the head portion. The jig attaches to the head portion via a catch at the front end of the head portion nail plate and a locking screw. This catch is defined by two grooves in between the three suture holes at the front end of the plate. The grooves also allow a suture needle to enter the tunnels.
  • The handle of the jig can be in first position directed away from the nail portion or in a second position in which it overlies a portion of the nail portion. In the first position, the handle is used to insert the plate into the bone, and in the second position the handle is used to drill holes for the cortical screws.
  • A system is provided for implanting the cortical screws, and includes a screw guide cannula, a drill guide cannula, and an obturator. These three units assembled together form a tapered end that permits them to be inserted through a small skin incision and to dissect the tissue down to the bone. Then the obturator is pulled out and the drill is introduced and used to drill through the cortex. The drill guide is then pulled out and the screw introduced, attached by friction to the driver. The screw guide has a constant inside diameter just big enough for the head of the screw all the way to just shy of the distal end. At the distal end of the screw guide, the diameter is just a bit smaller than the head of the screw. This is achieved by, for example, (i) leaving a small lip (e.g., by machining) in this area so as to create a slight interference relative to the screw head or (ii) by bending in the end, e.g., with or without the help of slits. The force required to overcome the interference between the size of the head of the screw and the smaller diameter at the end of the screw guide is sufficiently small so that the screw head can be driven right through the drill guide. Thus, the purpose of this feature is to retain the screw and allow the surgeon to pull out the screw in case the screw is separated from the driver while the screw is inside the cannula.
  • Additional objects and advantages of the invention will become apparent to those skilled in the art upon reference to the detailed description taken in conjunction with the provided figures.
  • BRIEF DESCRIPTION OF THE DRAWINGS
    • FIG. 1 is a top view of a nail plate according to the invention;
    • FIG. 2 is a side elevation view of a nail plate according to the invention;
    • FIG. 3 is a top perspective view of a nail plate according to the invention;
    • FIG. 4 is an enlarged top perspective view of the head portion of the nail plate of the invention;
    • FIG. 5 is a bottom perspective view of a nail plate according to the invention;
    • FIG. 6 is an enlarged bottom perspective view of the head portion of the nail plate of the invention;
    • FIG. 7 is a side elevation view of a implantation jig coupled to the nail plate, with a handle portion of the jig in a first position;
    • FIG. 8 is a perspective view of the implantation jig coupled to the nail plate, with the handle portion of the jig in the first position;
    • FIG. 9 is a side elevation view of an assembly of an implantation jig and a nail plate, with the handle of the jig in a second position;
    • FIG. 10 is a bottom perspective view of the assembly of the implantation jig and the nail plate, with the handle of the jig in the second position;
    • FIG. 11 is a enlarged bottom perspective view of an assembly of an implantation jig and a head portion of the nail plate;
    • FIG. 12 shows the nail plate implanted in a humerus bone, with the head portion of the nail plate seated on the proximal humerus and the implantation jig coupled to the head portion, a handle portion of the jig overlying the nail portion of the nail plate and providing alignment holes for drilling screw holes through the bone and in alignment with screw holes in the nail portion;
    • FIG. 13 is a view similar to FIG. 9 , but showing fixation pegs coupled to the head portion of the nail plate;
    • FIG. 14 is a top perspective view of the nail plate, the implantation jig, and fixation pegs coupled to the nail plate;
    • FIG. 15 is a bottom perspective view of the nail plate, the implantation jig, and fixation pegs coupled to the nail plate;
    • FIG. 16 is an enlarged bottom perspective view of the head portion of the nail plate, the implantation jig, and fixation pegs coupled to the head portion of the nail plate;
    • FIG. 17 is a side elevation of a second embodiment of a nail plate according to the invention;
    • FIG. 18 is a top perspective view of the second embodiment of a nail plate according to the invention;
    • FIG. 19 is a bottom perspective view of the second embodiment of a nail plate according to the invention;
    • FIG. 20 is an enlarged bottom perspective view of the head portion of the second embodiment of the nail plate;
    • FIG. 21 is a side elevation view of the second embodiment of the nail plate, shown with the jig and the screw guide cannula;
    • FIG. 22 is a top perspective view of the second embodiment of the nail plate, shown with the jig and the screw guide cannula;
    • FIG. 23 is a bottom perspective view of the second embodiment of the nail plate, shown with the jig and the screw guide cannula;
    • FIG. 24 is a partially transparent view of the nail plate system on a humeral bone with larger and smaller humeral heads indicated as well as landmarks for proper alignment of the nail plate;
    • FIG. 25 is a partially transparent view of the nail plate implanted in a humerus bone, the implantation jig coupled to the nail plate, and the axillary nerve running over the humerus bone;
    • FIG. 26 is a perspective view of a unicortical bone screw and coupling rod for inserting the screw, shown decoupled;
    • FIG. 27 is a perspective view of a unicortical bone screw and coupling rod for inserting the screw, shown coupled and extending through a screw guide; and
    • FIG. 28 is a perspective view of a screw driver coupled to a unicortical bone screw.
    DETAILED DESCRIPTION
  • Nail plates specifically for the fixation of metaphyseal fractures of the distal radius are disclosed in US-6730090 and US-6706046 . The following nail plate is designed for the proximal humerus and includes several novel and significant modifications relative to prior nail plates, as well as a new implantation jig, which are now described.
  • Referring to Figs. 1-6, a fracture fixation system is provided and includes a nail plate 10 having a plate-like head portion 12, an intramedullary nail portion 14, and a bent neck portion 16 therebetween which defines an angle α between the head portion 12 and upper surface 17 of the nail portion 14. The angle α is from 10° to 25 to accommodate the angle between the diaphysis 162 of the humerus 160 and outside of the metaphysis 164 of the proximal humerus. (See also Figs. 12 and 24.)
  • The upper (anatomically lateral) surface 17 of the nail portion 14 defines a substantially straight line for contact with the endosteum of the medullary canal, while a lower (anatomically medial) surface 18 curves or angles to approach the upper surface to cause the nail portion to taper in dimension toward a tail end 19. The tail end 19 has a substantially uniform smaller diameter to facilitate entry into the medullary canal. The nail portion 14 includes three cortical screw holes 20, 22, 24 which preferably are provided with machine threads for receiving the threaded shaft of a preferably unicortical screws with machine threads. Referring to Figs. 2 and 25, the cortical screw holes 20, 22, 24 are spaced apart from the neck 16 a suitable distance D to prevent screws 190 (Figs. 13-15) which will be inserted therethrough from interfering with the axillary nerve 165 which runs approximately 5 cm below the acromium. A preferred distance D is approximately 3 - 4 cm, and more preferably approximately 3.4 cm, from a tangent T to the inside curve of the neck 16 which will seat against the distal side of the fracture.
  • The head portion 12 includes locking holes 26, 28, 30, 32, 34 for receiving fixed-angle locking pegs 46, 48, 50, 52, 54 or locking screws (Figs. 13-16), i.e., 'bone support elements'. The locking holes are preferably made 'locking' via the inclusion of internal threads. In a preferred embodiment five locking holes are provided, with the central locking hole 26 defining an axis directed toward the centre of the articular surface of the humeral head, and the relatively proximal and distal (and anterior and posterior) locking holes 28, 30, 32, 34 having axes spatially distributed and diverging from the axis of the central locking hole 26 and each other but forming a multiaxial arrangement within the humeral head. The head portion 12 also includes a plurality of K- wire alignment holes 60, 62, 64 which closely receive K- wires and direct such wires to anticipate the placement of the bone support elements. Alignment holes 62, 64 are located on anterior and posterior sides of central hole 26 and have axes which extend parallel to the axis of central hole 26. The use of alignment holes 60, 62, 64 and K- wires in this manner is described in more detail in US-A-2004/0193165 , US-A-2004/0193164 , US-A-2005/0065524 and US-A-2003/0080371 . The plate also includes a threaded jig hole 66.
  • The front of the head portion 12 includes tunnel-like suture holes accessible by a curved suture needle. In a preferred embodiment, three tunnels are provided: a first central tunnel 70 perpendicular to a proximal-distal axis Ai of the head portion and extending through the central plane P of the head portion 12, and second and third tunnels 72, 74 on either side of the first 70 which are at an angle of about 45° ± 15° degrees with respect to the first tunnel. Each tunnel preferably includes a side which is longer than the thickness of the head portion. A catch is defined by two grooves 76 in between the three suture holes 70, 72, 74 or by other suitable structure at the front end of the head portion 12. The grooves 76 also allow a suture needle to enter the tunnels. The upper and front contours of the head portion 12 are devoid of scallops and protrusions such that there is no apparent disruption to the contour of the plate by the suture holes. The advantage of a smooth front end is that it presents no side-to-side resistance to tissue moving across the head portion.
  • Referring to Figs. 7-12, an implantation jig 100 is also provided. The jig 100 can be coupled to the device 10, and specifically the head portion 12. The jig includes a base 102 with two implant anchors 104, an access opening 106 through which the threaded or non-threaded shaft locking pegs 150 (Figs. 13-16) may be inserted into the head portion of the device, alignment holes 108, 110, 112 in alignment with K-wire alignment holes 60, 62, 64, and a coupling hole 114. The base 102 is secured to the head portion 12 of the plate by engaging the anchors 104 in the grooves 76 of the catch and securing a screw 116 through the coupling hole 114 and into the jig hole 66. (See also Fig. 11.) A pedestal 118 extends upward from the front of the base 102. A handle mount 120 having at least a portion with a non-circular cross-section is provided at an upper portion of the pedestal 118 and oriented so as to be perpendicular to the upper surface 18 of the nail portion 14 (Fig. 9). A handle 122 is coupled to the non-circular mount 120 via a releasable clamp 123 which permits the handle to be secured in a first position generally opposite the nail portion 14 (Figs. 7 and 8) or removed and repositioned (reconfigured) into a second position at least partially over the nail portion (Fig. 9). Referring to Figs. 10 and 12, the handle 122 includes guide holes 124, 126, 128 which when the handle is in the second position overlie the cortical screw holes 20, 22, 24 in the nail portion in the humeral bone 160. The first position is particularly useful during manipulation of the nail portion of the device through the intrafocal space and into the medullary canal, and during insertion of the K-wires through the alignment holes 60, 62, 64 and implantation of the locking screws 150. The second position is used during installation of the cortical screws into the nail portion, as discussed in more detail below.
  • A screw guide cannula 170, a drill guide cannula 180, and an obturator 190 are provided for use with the jig 100 (See Figs. 21-23). These three units assembled together form a tapered end that permits them to be inserted through a small skin incision and to dissect the tissue down to the bone. The assembly is inserted through one of the holes 124, 126, 128 and maneuvered down to the bone. The obturator 190 is then withdrawn and a drill is introduced through the drill guide 180 and used to drill through the bone cortex over one of the holes 20, 22, 24. The drill and drill guide are then pulled out and a machine screw is introduced through the cannula 170, attached by friction to a driver. The screw guide cannula 170 has a proximal opening (first end), a distant end (second end) and a longitudinally extending central portion therebetween. The central portion has a constant inside diameter just big enough for the head of the screw and extends all the way to just shy of the distal end. At the distal end of the screw guide 170, the diameter is just a bit smaller than the head of the screw. This is achieved by, for example, (i) leaving a small lip (e.g., by machining) in this area so as to create a slight interference relative to the screw head or (ii) by bending in the end, e.g., with or without the help of slits. The force required to overcome the interference between the screw head and the smaller diameter at the end of the screw guide 170 is sufficiently small so that the screw head can be driven right through the screw guide and into holes in the nail portion of the device within the bone. Thus, the purpose of this feature is to retain the screw and allow the surgeon to retrieve the screw in the event the screw is separated from the driver while the screw is inside the guide 170.
  • Referring to Figs. 26-28, an alternative screw capture system to facilitate screw insertion is provided. In this system a standard constant diameter guide 370 (shown in section) is used. The screw 390 include a head 392 including a central hex slot 394 for a driver 406 and a reverse-hand threaded recess 396 (opposite the travel of the machine threads on the shaft of the screw) at the base of the hex slot 394. A coupling rod 400 is provided with an end 402 having a reverse-hand thread 404. As shown in Fig. 27, the rod 400 is physically connected to the screw 390 by a reverse-hand threaded coupling. The rod 400 is then used to maneuver the screw 390 through the guide 370, the hole drilled in the bone, and into a screw hole 20, 22, 24 in the nail portion 14 (Fig. 3). The rod 400 is then rotated to insert the screw 390 into the screw hole, and the rod substantially simultaneously unthreads from the screw head 392 to decouple from the screw. As shown in Fig. 28, a driver 406 is then inserted into the hex slot 394 and driven to complete insertion of the screw 390 into the screw hole. It is also appreciated that the threaded coupling between the screw 390 and rod 400 may be designed to have greater interference inhibiting release between the two. As such, the rod 400 can then be used to substantially completely insert the screw 390 prior to release of the rod, with the driver 406 being used for final screw tightening. It is also appreciated that any conventional screw driving system can be used.
  • Regardless of exactly how the screw is driven to engage the hole 20, 22, 24 in the nail portion 14 of the device 10, driving the screw into the nail portion causes the nail portion to be pulled against the endosteal surface of the cortex, with the head of the screw seating on the outer surface of the bone. The process is repeated for the other holes 20, 22, 24 to insert unicortical screws 190, 390 with machine threads into the holes to clamp the nail portion 14 against the bone.
  • Turning now to Figs. 17-20, a second embodiment of a nail plate 210 according to the invention is shown. The nail plate 210 is substantially similar to nail plate 10, but includes the following distinctions. The head portion 212 is set back relatively further on the neck 216 such that the central locking hole 226 extends through the neck and further clearance is provided between the front end of the head portion 212 and the acromium. Also, the tail end 219 of the nail portion 214 is provided with a downward and then upward curve which facilitates maneuvering the tail end of the nail portion for intrafocal entry.
  • Referring now to Figs. 21-23, the nail plate 210 is shown coupled to the implantation jig 100. The implantation jig 100 can be used without modification with both nail plates 10 and 210. A screw guide cannula 170 and drill guide 180 are shown in a hole 126 in the handle 122 situated over screw hole 222 of the nail portion 214 of the device 210.
  • Referring to Fig. 24, in accord with the invention, regardless of the size of the humerus bone 160; i.e., whether the head of the bone is relative small as shown at the 166a or relatively large as shown at 166b, a single size implant can be used and the implant can be assured of proper anatomical alignment by extending (i) the nail portion 214 parallel with the axis A2 of the diaphysis 162 and (ii) the central locking peg (or locking screw) 150a toward the center 168a, 168b of the articular surface of the humeral head. Geometrically, the angle between the axis A and a line perpendicular the center of the articular surface is typically 45° ± 20°, and more typically 45° ± 10°. K-wires (not shown) inserted through alignment holes 262, 264 (Fig. 18) can verify proper alignment of the central hole 226 prior to drilling holes for and inserting the locking peg therethrough. If the central hole is properly aligned, the remaining holes and pegs are assured to be properly spatially distributed.
  • More particularly, a method of using the nail plate 10 (or 210), jig 100 and cannula 170 is now briefly described. A small incision is made over the fracture down to the bone. A small piece of bone is then removed (using, e.g., a rongeur) on the distal (diaphyseal) side of the fracture to define a space to accommodate the neck 16 of the nail plate 10. The fracture is reduced. The jig 100 is coupled to the nail plate with the handle 122 secured in the first position generally opposite the nail portion 14. The small end 19 of the nail portion 14 is then maneuvered through the incision and intrafocally into the medullary canal until the neck 16 seats within the space defined in the bone and the head portion 12 rests relatively flat on the metaphysis, as shown in Figs. 7 and 8. Optionally, the nail plate is introduced into the medullary canal and onto the metaphysis manually without attachment to the jig and the jig is later attached.
  • One or more K-wires are preferably then drilled into the head of the proximal humerus and viewed under fluoroscopy to assure alignment of the head portion over the metaphysis. Assuming the K-wires indicate proper alignment, holes are drilled through the locking holes and into the metaphysis for receiving locking pegs or locking screws. If the K-wire(s) indicate an alignment which is less than desirable, the plate humeral head are relatively realigned, and K-wire(s) are reinserted and reevaluated for alignment and once the alignment is satisfactory, the holes are drilled. The locking pegs 150 or locking screws are inserted into the drilled holes and locked relative to the plate 10 to stabilize the humeral head relative to the head portion 12 of the nail plate.
  • The handle 122 of the jig 100 is then reversed (or attached) to overlie the nail portion 14 (Fig. 10) and be positioned over the tissue and skin of the upper arm. For each of the guide holes 122, 124, 126, the screw guide cannula 170, drill guide cannula 180 and obturator 190 are together inserted therethrough, with the obturator 190 breaking the skin and defining a path through the tissue to the diaphyseal bone. The obturator 190 is then withdrawn and a drill is introduced through the drill guide 180 and used to drill through the bone cortex over one the respective holes 20, 22, 24. The drill and drill guide are then pulled out and a machine screw attached to a driver is introduced through the cannula 170 and the shaft of the screw is driven into respective hole 20, 22, 24 to cause the nail portion 14 to be drawn against the endosteal surface of the bone. The process is repeated for the remaining holes 20, 22, 24 in the nail portion. The jig 100 is then removed from the nail plate 10 and the incision is closed.
    The components provided by the invention can be used in a method of implanting a nail-plate implant into a fractured bone having a metaphysis including an articular surface, the implant having a nail portion with screw holes, a plate portion with locking holes, and a neck portion therebetween, comprising:
    1. (a) removing a portion of bone on one side of the fracture;
    2. (b) reducing the fracture;
    3. (c) inserting the nail portion of the nail-plate implant intrafocally into the medullary canal until the necks seats within the space defined one the one side of the fracture and the head portion rests on the metaphysis;
    4. (d) inserting bone support elements into the metaphysis and locking the bone support elements relative to the plate portion;
    5. (e) coupling a jig to the implant, the jig including a handle with guide holes;
    6. (f) positioning the handle of the jig to overlie the nail portion;
    7. (g) drilling holes through the guide holes into the bone and the screw holes in the nail portion; and
    8. (h) inserting screws with a driver through a screw guide cannula and into the drilled holes and the screw holes in the nail portion, the screw guide cannula retaining a screw within the cannula if prematurely released from the driver within the cannula.
    The components provided by the invention can be used in a method of implanting a nail-plate implant into a fractured bone having a metaphysis including an articular surface, the implant having a nail portion with screw holes, a plate portion with locking holes, and a neck portion between them, comprising:
    1. (a) removing a portion of bone on one side of the fracture;
    2. (b) reducing the fracture;
    3. (c) coupling the jig to the nail-plate with the handle secured in a position oriented generally opposite the nail portion;
    4. (d) inserting the nail portion of the nail-plate implant intrafocally into the medullary canal until the necks seats within the space defined one the one side of the fracture and the head portion rests on the metaphysis;
    5. (e) inserting bone support elements into the metaphysis and locking the bone support elements relative to the plate portion;
    6. (f) repositioning the handle of the jig to overlie the nail portion;
    7. (g) drilling holes through the guide holes into the bone and the screw holes in the nail portion; and
    8. (h) inserting screws into the drilled holes and the screw holes in the nail portion.
    While the components provided by the invention have been described above with reference to the humerus, they can be used on other bones, especially long bones.

Claims (13)

  1. An implant (10) for fixation of a bone fracture, the bone having a diaphysis with a medullary canal, an endosteum within the medullary canal, and a metaphysis with an articular surface at its end, comprising:
    (a) an intramedullary nail portion (14) having a substantially straight endosteal surface (17) and a plurality of threaded screw holes (20, 22, 24) longitudinally displaced along the nail portion,
    (b) a plate-like head portion (12) at an angle (α) relative to the endosteal surface, the head portion including a plurality of locking holes (26, 28, 30, 32, 34) at which bone support elements may be locked relative to the head portion, and
    (c) a neck portion (16) between the head and nail portions,
    characterised in that the angle (α) between the plate-like head portion and the endosteal surface of the nail portion is in the range 10° to 25°.
  2. An implant as claimed in claim 1, in which the nail portion (14) has a surface (18) substantially opposite the endosteal surface (17) that approaches the endosteal surface so as to cause the nail portion to taper in dimension toward a tail end (19).
  3. An implant as claimed in claim 2, in which the tail end (19) is provided with a curve.
  4. An implant as claimed in claim 1, in which the head portion (12) includes five locking holes (26, 28, 30, 32, 34) each defining a respective and discrete axis, with one of the locking holes being a central locking hole (26), in which when the head portion is seated on the metaphysis the central locking hole defines an axis directed toward the centre of the articular surface of the bone.
  5. An implant as claimed in claim 4, in which the remaining locking holes (28, 30, 32, 34) have axes spatially distributed and diverging from the axis of the central locking hole (26).
  6. An implant as claimed in claim 4, in which the central locking hole (26) extends through the neck portion (16).
  7. An implant as claimed in claim 1, in which the head portion (12) includes at least one K- wire alignment hole (60, 62, 64) which is sized to stably receive a K-wire at a fixed angle.
  8. An implant as claimed in claim 1, in which the head portion (12) includes at least one non-threaded suture hole (70, 72, 74) at which suture may be coupled to the head portion
  9. An implant as claimed in claim 8, in which the head portion (12) has a thickness, and the at least one suture hole includes three suture tunnels (70, 72, 74), each of which includes a side which is longer than the thickness of the head portion.
  10. An implant as claimed in claim 8, in which the head portion (12) has a proximal-distal axis and a central plane, and the at least one suture hole includes three suture tunnels including a first central tunnel (70) perpendicular to the proximal-distal axis and extending through the central plane, and second and third tunnels (72, 74) on either side of the first tunnel and which are at angle of about 45° ± 15° with respect to the first tunnel.
  11. An implant as claimed in claim 1, in which the head portion (12) includes a catch (76) for coupling an implantation jig thereto.
  12. An implant as claimed in claim 11, in which the catch (76) is at an end of the head portion (12) opposite the nail portion (14), and the head portion further includes a screw hole (114) for locking an implantation jig to the end of the head portion opposite the catch (76).
  13. An implant as claimed in claim 1, which is sized for implantation at the proximal humerus.
EP06719774.9A 2005-01-28 2006-01-26 Nail plate system Not-in-force EP1855605B1 (en)

Applications Claiming Priority (3)

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US64898905P 2005-01-28 2005-01-28
PCT/US2006/003065 WO2006081483A1 (en) 2005-01-28 2006-01-26 Nail plate system
US11/277,160 US7927341B2 (en) 2005-01-28 2006-03-22 Nail plate and jig therefor

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EP1855605A1 EP1855605A1 (en) 2007-11-21
EP1855605A4 EP1855605A4 (en) 2011-06-15
EP1855605B1 true EP1855605B1 (en) 2014-01-08

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US (2) US7896886B2 (en)
EP (1) EP1855605B1 (en)
AU (1) AU2006207962B2 (en)
CA (1) CA2596266C (en)
NO (1) NO20074357L (en)
WO (2) WO2006081483A1 (en)

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US7686808B2 (en) 2006-01-27 2010-03-30 Depuy Products, Inc. Fracture fixation device and implantation jig therefor
US7722611B2 (en) 2007-03-05 2010-05-25 Depuy Products, Inc. Method of treating a clavicle fracture

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US10251682B2 (en) 2017-03-22 2019-04-09 DePuy Synthes Products, Inc. Distal radius nail

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WO2007109437A2 (en) 2007-09-27
WO2006081483A1 (en) 2006-08-03
EP1855605A1 (en) 2007-11-21
AU2006207962A1 (en) 2006-08-03
CA2596266A1 (en) 2006-08-03
AU2006207962B2 (en) 2012-03-01
US20060200157A1 (en) 2006-09-07
US7896886B2 (en) 2011-03-01
US20060189996A1 (en) 2006-08-24
US7927341B2 (en) 2011-04-19
CA2596266C (en) 2015-03-31
WO2007109437A3 (en) 2008-07-24
EP1855605A4 (en) 2011-06-15
NO20074357L (en) 2007-08-27

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